Jhee K H, Yang L H, Ahmed S A, McPhie P, Rowlett R, Miles E W
National Institutes of Health, Bethesda, Maryland 20892, USA.
J Biol Chem. 1998 May 8;273(19):11417-22. doi: 10.1074/jbc.273.19.11417.
To better understand how an enzyme controls cofactor chemistry, we have changed a tryptophan synthase residue that interacts with the pyridine nitrogen of the pyridoxal phosphate cofactor from a neutral Ser (beta-Ser377) to a negatively charged Asp or Glu. The spectroscopic properties of the mutant enzymes are altered and become similar to those of tryptophanase and aspartate aminotransferase, enzymes in which an Asp residue interacts with the pyridine nitrogen of pyridoxal phosphate. The absorption spectrum of each mutant enzyme undergoes a pH-dependent change (pKa approximately 7.7) from a form with a protonated internal aldimine nitrogen (lambdamax = 416 nm) to a deprotonated form (lambdamax = 336 nm), whereas the absorption spectra of the wild type tryptophan synthase beta2 subunit and alpha2 beta2 complex are pH-independent. The reaction of the S377D alpha2 beta2 complex with L-serine, L-tryptophan, and other substrates results in the accumulation of pronounced absorption bands (lambdamax = 498-510 nm) ascribed to quinonoid intermediates. We propose that the engineered Asp or Glu residue changes the cofactor chemistry by stabilizing the protonated pyridine nitrogen of pyridoxal phosphate, reducing the pKa of the internal aldimine nitrogen and promoting formation of quinonoid intermediates.
为了更好地理解一种酶如何控制辅因子化学性质,我们已将色氨酸合酶中与磷酸吡哆醛辅因子的吡啶氮相互作用的一个色氨酸残基,从中性的丝氨酸(β-Ser377)替换为带负电荷的天冬氨酸或谷氨酸。突变酶的光谱性质发生了改变,变得与色氨酸酶和天冬氨酸转氨酶相似,在这些酶中一个天冬氨酸残基与磷酸吡哆醛的吡啶氮相互作用。每种突变酶的吸收光谱经历了一个pH依赖性变化(pKa约为7.7),从具有质子化内部醛亚胺氮的形式(λmax = 416 nm)转变为去质子化形式(λmax = 336 nm),而野生型色氨酸合酶β2亚基和α2β2复合物的吸收光谱与pH无关。S377D α2β2复合物与L-丝氨酸、L-色氨酸及其他底物的反应导致了归因于醌型中间体的明显吸收带(λmax = 498 - 510 nm)的积累。我们提出,工程改造的天冬氨酸或谷氨酸残基通过稳定磷酸吡哆醛的质子化吡啶氮、降低内部醛亚胺氮的pKa并促进醌型中间体的形成来改变辅因子化学性质。
